Extracellular vesicles (EVs) are a class of cell-derived, lipid bilayer membrane composed vesicles, and some of them such as exosomes and ectosomes have been proven, playing remarkable roles in transmitting intercellular information, and being involved in each property of cell physiological activities. Nowadays, EVs are considered as potential nanocarriers which could partially resolve the problems of current chemotherapy because of their distinctive advantages. As endogenous membrane encompassed vesicles with nanosize, EVs are able to pass through the natural barriers with prolonged circulation time in vivo and have intrinsic cell targeting properties, they are less toxic, and less immunogenic. Recently, studies focusing on EV-based drug delivery system for cancer therapy have exploded dramatically. This review aims to outline the current applications of EVs as potential nanosized drug carriers in cancer therapy. Firstly, the characteristics and biofunctions of each EV subtype are described. Then the variety of therapeutic cargoes, the loading methods, and the targeting strategy of engineered EVs are emphatically introduced. Thereafter the pros and cons of EVs applied as therapeutic carriers, as well as the future prospects in this field, are discussed.
Background
Heterozygous mutations in the AT‐hook DNA‐binding motif containing one (AHDC1, OMIM * 615790) gene cause an autosomal dominant multisystem developmental disorder known as Xia‐Gibbs syndrome (OMIM #615829). Xia‐Gibbs syndrome typically presented with global developmental delay, hypotonia, obstructive sleep apnea, seizures, delayed myelination, micrognathia, and other mild dysmorphic features.
Methods
Description of the clinical materials of two Chinese boys who were diagnosed with Xia‐Gibbs syndrome based on clinical presentations and next generation sequencing. Review of clinical features and AHDC1 mutations in previously reported Xia‐Gibbs syndrome patients together with our two new patients.
Results
The Xia‐Gibbs syndrome patients exhibited short stature, hypotonia, global developmental delay, speech delay, simian crease, and mild dysmorphic features. Next generation sequencing revealed de novo heterozygous variants in AHDC1 gene. In addition, laboratory test revealed partial growth hormone deficiency. Both patients underwent growth hormone replacement therapy for 24 and 9 months, respectively, and exhibited good response to the treatment.
Conclusion
This is the first report of Xia‐Gibbs syndrome patients to be treated with growth hormone. Review of previously reported Xia‐Gibbs syndrome patient indicated that short stature is a frequent feature of this condition, but its underlying cause needs to be further investigated.
The hydrogenotrophic strain
Methanofollis formosanus
DSM 15483
T
(= ML15
T
= OCM 798
T
) was isolated from an aquaculture fish pond near Wang-gong, Taiwan. The genome of strain DSM 15483
T
was selected for sequencing in order to provide further information about the species delineation and its unique habitat.
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